Introduction
Electrical engineering is a professional education to develop young engineers with many career opportunities. Electrical Engineering is a base engineering discipline to support all power and energy sector engineers. It serves as input in many cases to electronics, computer, telecommunication, robotics, aeronautics and even in space power systems.
The qualified young engineers will be able to further their career in PTCL, WAPDA, Electric Companies, Energy Production or even Electrical Goods manufacturing. They can further study Electronics, Computer Engineering, Robotics, and Solar Systems and nanotechnologies. They can design and manufacture electrical cars etc. Electrical engineering also has a major role other sub fields like control & automation and signal processing. It is also vital in new and emerging fields such as Controls, Robotics and Smart renewable energy systems etc.
At Grafton College, we follow the UET Lahore Standard curriculum and regulations while complying with PEC regulations for curriculum coverage, skill development and laboratory conduction etc. In addition, the department arranges collaboration with local and international experts in IEEE in order to provide implement updated / innovative ideas in the international market. PEC registration will now allow them to apply for appropriate international professional licenses as well.
Program code: B.Sc. Electrical Engineering
Duration: Full time (4 years)
Start Date: Fall
Awarding Body: UET Lahore
The Program Educational Objectives of Electrical Engineering program are to produce Electrical Engineering graduates who:
PEO - 01: Demonstrate excellence in profession through in-depth knowledge and skills in the field of electrical engineering.
PEO - 02: Engage in continuous professional development and exhibit a quest of learning.
PEO - 03: Show professional integrity and commitment to social and ethical responsibilities.
“The Grafton College Bachelors of Electrical Engineering program endeavours to prepare lifelong learners to succeed with in the rapidly changing engineering environment and who are committed to becoming leaders in the industry as well as academic and research institutes”
“The mission of the Grafton College Bachelors of Electrical Engineering program is to produce professional engineers that demonstrates competency necessary to function and deliver solutions in diverse engineering situations and scenarios. The program develops critical thinkers committed to professionalism, team work and community service”
a. Engineering Knowledge
Apply knowledge of mathematics, science and engineering fundamentals to the solution of complex engineering problems.
b. Problem Analysis
Identify, formulate, research literature, and analyse complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences and engineering sciences.
c. Design / Development of Solutions
Design solutions for complex engineering problems. Design systems, components, or processes that meet specified needs with appropriate consideration for public health and safety, ethics and efficiency.
d. Investigation
Investigate complex engineering problems in a methodical way including literature survey, design and conduct of experiments, analysis and interpretation of experimental data, and synthesis of information to derive valid conclusions.
e. Modern Tool Usage
Select and apply appropriate techniques, resources, and modern engineering and IT tools, for prediction, modeling, simulation of complex engineering activities, and understanding of the limitations.
f. The Engineer and Society
Apply reasoning informed by contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to professional engineering practices in order to find an optimum solution to complex engineering problems.
g. Environment and Sustainability
Describe the impact of professional engineering solutions in societal and environmental contexts and demonstrate the importance of sustainable development.
h. Ethics
Apply ethical principles and demonstrate professional ethics, responsibilities and norms of engineering practice.
i. Individual and Teamwork
Work effectively, as an individual or in a team, on multifaceted and/or multidisciplinary settings.
j. Communication
Communicate effectively, orally as well as in writing on complex engineering activities with the engineering community and with society at large, such as being able to comprehend and write effective reports and design documentations, make effective presentations, and give and receive clear instructions.
k. Project Management
Demonstrate management skills and apply engineering principles to one’s own work, as a member and/or leader in a team to manage projects in a multidisciplinary environment.
l. Lifelong Learning
Recognize importance of life-long learning in the broader context of innovation and technological developments.
C. Code
Semester 1, 16 Cr. Hrs
ME 102
Applied Thermodynamics
MGT 102
Sociology
ME 100L
Workshop Practice
PHY 111
Applied Physics
HU 1XX
International Language
MA 123
Calculus
CS 141
Introduction to Computing
Semester 2, 16 Cr. Hrs
EE 101
Electrical & Electronics Workshop
EE 100
Electric Circuits
ME 124L
Engineering Drawing
IS 101
Islamic & Pakistan Studies-I/Ethics
EE 170
Programming Fundamentals
HU 111
Communication Skills
MA 228
Differential Equation
Semester 3, 18 Cr. Hrs
EE 212
Semiconductor Devices
Circuit Analysis & Design
EE 272
Digital Systems
HU 221
Technical Writing & Presentation Skills
MA 234
Linear Algebra
Semester 4, 18 Cr. Hrs
EE 213
Analog and Digital Electronic Circuits
EE 220
Signals and Systems
EE 250
Electric Machinery Fundamentals
EE 232
Data Structures and Algorithms
MA 346
Numerical Methods
Semester 5, 18 Cr. Hrs
EE 273
Microprocessor Systems
EE 340
Control Systems
EE 302
Applied Probability
EE 357
Power System Analysis
EE 380
Electromagnetic Theory
Semester 6, 18 Cr. Hrs
EE 322
Analog & Digital Communications
EE 384
Digital Signal Processing
EE 312
Power Electronics
EE 300L
Embedded Systems Laboratory
EE 358
Power Distribution Systems
IME 251
Social & Ethical Aspects in Engineering
Semester 7, 17 Cr. Hrs
EE
Elective
IS 201
Islamic & Pakistan Studies II/Ethics
MGT 211
Principles of Management
EE 499a
Project (Phase-I)
Semester 8, 14 Cr. Hrs
MGT
Restricted Elective (Management)
EE 499b
Project (Phase-II)
Electives for Specialization
Electives
EE 411
Industrial Control Systems (L)
EE 412
Integrated Electronic Circuits (L)
EE 424
Satellite Engineering
EE 425
Wireless Communications (L) - Pre-Req: EE 384
EE 426
Digital Image Processing (L)
EE 431
Operating Systems (L)
EE 432
Computer Networks (L)
EE 436
Database Engineering (L)
EE 439
Introduction to Machine Learning
EE 450
High Voltage Engineering (L)
EE 452
Renewable Electrical Energy Systems
EE 453
Power System Operation and Control (L) - Pre-Requisite: EE 357
EE 454
Power System Protection (L) - Pre-Requisite: EE 357
EE 456
Introduction to Smart Grids
EE 460
Electrical Drives (L)
EE 461
Design of Electrical Machines (L)
EE 475
Computer Architecture (L)
EE 476
Introduction to VLSI Systems (L)
EE 477
Software Construction
EE 481
Optical Circuits and Systems
EE 482
Microwave Engineering - Passive Devices (L)
EE 483
Antenna Systems (L)
EE 484
Microwave Engineering - Active Devices (L) - Pre-Req: EE 482
EE 485
Electromagnetic Compatibility
EE 419
Electrical Instruments and Measurements (L)
EE 492
Biomedical Instrumentation (L) - Pre - Req: EE 213
EE 493
Clinical Laboratory Instrumentation (L) - Pre-Req: EE 492
EE 494
Biomedical Imaging (L)
EE 495
Biomechanics (L)
EE 496
Medical Robotics(L) - Pre - Req: EE 340
Electrical engineers are in constant demand across a wide range of industries both nationally and internationally. Graduates have the potential to work in areas as diverse as renewable energy, electronics, robotics, industrial automation, control, electrical drives, power and energy systems, telecommunications and biomedical instrumentation.